Tutoring - ubc courses

MATH 100 - Differential Calculus with Applications to Physical Sciences and Engineering 

Derivatives of elementary functions. Applications and modelling: graphing, optimization.  

MATH 101 - Integral Calculus with Applications to Physical Sciences and Engineering

The definite integral, integration techniques, applications, modelling, infinite series. 

MATH 102 - Differential Calculus with Applications to Life Sciences

Functions, derivatives, optimization, growth and decay, discrete probability.

MATH 103 - Integral Calculus with Applications to Life Sciences

Antiderivatives and definite integrals, infinite series, applications to probability and dynamical systems. 

MATH 104 - Differential Calculus with Applications to Commerce and Social Sciences

Derivatives and rates of change, exponential and trigonometric functions, Newton's method, Taylor polynomials, maxima and minima, and graphing.

MATH 105 - Integral Calculus with Applications to Commerce and Social Sciences

Antiderivatives, the definite integral, techniques of integration, infinite series, partial derivatives, maxima and minima with constraints, discrete and continuous random variables. 

MATH 110 - Differential Calculus

Topics as for MATH 100, but including relevant topics from algebra, geometry, functions, trigonometry, logarithms, and exponentials. 

MATH 120 - Honours Differential Calculus

Limits, derivatives, Mean Value Theorem and applications, elementary functions, optimization, Taylor series, approximation.

MATH 121 - Honours Integral Calculus

Definite integrals and the Fundamental Theorem of Calculus, techniques and applications of integration, infinite series. 

MATH 180 - Differential Calculus with Physical Applications

Topics as for Math 100; intended for students with no previous knowledge of Calculus.

MATH 184 - Differential Calculus for Social Science and Commerce

Topics as for Math 104; intended for students with no previous knowledge of Calculus. 

MATH 190 - Calculus Survey

Functions, derivatives, integrals, curve sketching growth functions, volume calculations.

PHYS 100 - Introductory Physics

Kinematics, force, energy, momentum, use of graphs and vectors in physics; thermal energy, heat transfer, Earth's energy balance; electricity. 

PHYS 101 - Energy and Waves

Fluids, harmonic oscillator, travelling waves, standing waves, sound, and interference of light waves, including diffraction. 

PHYS 102 - Electricity, Light and Radiation

Introduction to optics, electricity and magnetism, electric circuits, radioactivity, including biological applications.   

PHYS 107 - Enriched Physics I

Classical mechanics including conservation laws, angular momentum of rigid bodies and simple harmonic motion, wave phenomena, with an introduction to special relativity, quantum mechanics, nuclear physics, statistical mechanics and solid state physics.  

PHYS 108 - Enriched Physics II

Electricity and magnetism, electrical circuits, induction, electromagnetic waves, Maxwell's equations and applications.   

PHYS 109 - Enriched Experimental Physics

A laboratory course accompanying PHYS 108 with emphasis on data collection and analysis and experimental techniques.  

PHYS 117 - Dynamics and Waves

Kinematics including curvilinear motion. Forces and Newton's laws of motion. Work-energy theorem, conservation of energy. Conservation of momentum, collisions. Torque, rotational dynamics, angular momentum. Oscillations and waves.  

PHYS 118 - Electricity, Light and Radiation

Optics, electricity and magnetism, electric circuits, radioactivity, including biological applications.   

PHYS 153 - Elements of Physics

Thermometry, thermal properties of matter, heat, oscillations, waves, sound, wave optics; geometrical optics, elementary electricity and magnetism, simple DC and AC circuits.  

PHYS 157 - Introductory Physics for Engineers I

Heat, thermodynamics, oscillations, waves, and sound.   

PHYS 158 - Introductory Physics for Engineers II

Electricity and magnetism, DC and AC circuits, optics.   

PHYS 170 - Mechanics I

Statics of particles, equilibrium or rigid bodies, rigid body statics and internal forces, trusses; kinematics: rectilinear motion; dynamics: Newton's second law, friction, impulse, momentum, work and energy. 

CHEM 100 - Foundations of Chemistry

Atomic and molecular properties, chemical reactions, bonding, nomenclature, kinetics, equilibrium processes, acids and bases, oxidation and reduction. 

CHEM 111 - Structure, Bonding, and Equilibrium in Chemistry

Fundamentals of bonding theories, structural chemistry and equilibrium with applications relevant to modern society. 

CHEM 121 - Structure and Bonding in Chemistry

Fundamentals of bonding theories and structural chemistry, with applications relevant to modern society. 

CHEM 123 - Thermodynamics, Kinetics and Organic Chemistry

Fundamentals of chemical reactivity: thermodynamics; kinetics; organic chemistry, including stereochemistry; applications relevant to modern society. 

CHEM 154 - Chemistry for Engineering

Chemical bonding, properties of matter. Chemical thermodynamics with applications to phase equilibria, aqueous equilibria and electrochemistry. 

CHEM 203 - Introduction to Organic Chemistry

Structure, bonding and physical properties of aliphatic and aromatic compounds; mechanistic analysis of chemical reactivity of common functional groups with a focus on carbon-heteroatom bond formation; functional group interconversion and oxidation/reduction reactions.

CHEM 205 - Physical Chemistry

Chemical kinetics and thermodynamics and spectroscopy useful in biological, medical, agricultural, earth, and related sciences.

CHEM 208 - Coordination Chemistry

Fundamental concepts and principles governing bonding and reactivity of coordination complexes: ligand field theory; symmetry and point groups; frontier molecular orbital theory. 

CHEM 211 - Introduction to Chemical Analysis

Quantitative chemical analysis; chemical and physical principles of spectrophotometry, potentiometry, and chromatography. 

CHEM 213 - Organic Chemistry

Spectroscopy of organic compounds. Mechanistic analysis of chemical reactivity of common functional groups with a focus on carbon-carbon bond formation; functional group interconversion. 

CHEM 218 - Fundamentals of Reactivity in Inorganic Chemistry

Chemical reactivity of inorganic systems: oxidation/reduction chemistry; multiply-bonded systems; main group chemistry. 

CHEM 233 - Organic Chemistry for the Biological Sciences

Reactions and properties of carbonyl compounds, carbohydrates, amino acids, nucleic acids.  

 STAT 200 - Elementary Statistics for Applications

Classical, nonparametric, and robust inferences about means, variances, and analysis of variance, using computers. Emphasis on problem formulation, assumptions, and interpretation. 

STAT 203 - Statistical Methods

Organizing, displaying and summarizing data. Inference estimation and testing for elementary probability models. 

STAT 241 - Introductory Probability and Statistics

Probability models, random variables and vectors, estimation, testing, regression, analysis of variance, goodness of fit, quality control.

STAT 251 - Elementary Statistics

Probability, discrete and continuous random variables, joint probability distributions, estimation, hypothesis testing, regression, analysis of variance, goodness of fit.